A Novel Proposed Improvement on Performance of a Photovoltaic/Water Pumping System: Energy and Environmental Analysis

Iranian Journal of Energy and Environment Pub Date : 2022-01-01 DOI:10.5829/ijee.2022.13.02.11

A. H. Shiravi, M. Firoozzadeh

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引用次数: 2

Abstract

using possible. Photovoltaic is one of the most alternatives. are used to supply electricity for pumping systems to irrigate the farmlands. It has been proved by many scholars that PV cell temperature is a crucial factor in cell’s efficiency. In this study, a novel arrangement of a PV/pumping system has been considered, in order to enhance the pumping performance. To make it feasible, a small part of the pumped water is directed to a box-type passage at the backside of the PV module, and then connect to the water pipe and drain to the farmland. Two various flow rates of 5 and 10 L/min were tested. The results showed two proposed cases have a bit difference in their outputs. Accordingly, the temperature of modified cases did not pass beyond 36°C while, the temperature of the conventional module reaches to 72°C. This temperature reduction leads to about 50% higher electrical efficiency. From the output power point of view, more than 45% increase was observed. Also, an environment evaluation is performed and it was found that the present improvement can reduce emission of 34.57 tons CO 2 , annually.

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一种改进光伏/抽水系统性能的新方法:能源与环境分析

使用成为可能。光伏发电是一种最可行的替代方案。用来为抽水系统供电，灌溉农田。许多学者已经证明PV电池温度是影响电池效率的关键因素。在本研究中，考虑了一种新型的PV/pumping system的布置，以提高抽水性能。为了使其可行，一小部分抽水被引导到光伏组件背面的箱形通道，然后连接到水管并排入农田。测试了5和10 L/min两种不同的流量。结果表明，所提出的两种情形的输出结果略有不同。因此，修改后的机箱温度不超过36℃，而常规模块的温度达到72℃。温度降低导致电效率提高约50%。从输出功率的角度来看，增加了45%以上。并进行了环境评价，发现改进后每年可减少二氧化碳排放34.57吨。

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Iranian Journal of Energy and Environment

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